/*
 * SyntaxUtilities.java - Utility functions used by syntax colorizing
 * Copyright (C) 1999 Slava Pestov
 *
 * You may use and modify this package for any purpose. Redistribution is
 * permitted, in both source and binary form, provided that this notice
 * remains intact in all source distributions of this package.
 */

   package mars.venus.editors.jeditsyntax;

   import mars.venus.editors.jeditsyntax.tokenmarker.*;
   import mars.Globals;
   import javax.swing.text.*;
   import javax.swing.*;
   import java.awt.*;
   import java.awt.event.*;

/**
 * Class with several utility functions used by jEdit's syntax colorizing
 * subsystem.
 *
 * @author Slava Pestov
 * @version $Id: SyntaxUtilities.java,v 1.9 1999/12/13 03:40:30 sp Exp $
 */
    public class SyntaxUtilities
   {
   /**
    * Checks if a subregion of a <code>Segment</code> is equal to a
    * string.
    * @param ignoreCase True if case should be ignored, false otherwise
    * @param text The segment
    * @param offset The offset into the segment
    * @param match The string to match
    */
       public static boolean regionMatches(boolean ignoreCase, Segment text,
       			    int offset, String match)
      {
         int length = offset + match.length();
         char[] textArray = text.array;
         if(length > text.offset + text.count)
            return false;
         for(int i = offset, j = 0; i < length; i++, j++)
         {
            char c1 = textArray[i];
            char c2 = match.charAt(j);
            if(ignoreCase)
            {
               c1 = Character.toUpperCase(c1);
               c2 = Character.toUpperCase(c2);
            }
            if(c1 != c2)
               return false;
         }
         return true;
      }
   
   /**
    * Checks if a subregion of a <code>Segment</code> is equal to a
    * character array.
    * @param ignoreCase True if case should be ignored, false otherwise
    * @param text The segment
    * @param offset The offset into the segment
    * @param match The character array to match
    */
       public static boolean regionMatches(boolean ignoreCase, Segment text,
       			    int offset, char[] match)
      {
         int length = offset + match.length;
         char[] textArray = text.array;
         if(length > text.offset + text.count)
            return false;
         for(int i = offset, j = 0; i < length; i++, j++)
         {
            char c1 = textArray[i];
            char c2 = match[j];
            if(ignoreCase)
            {
               c1 = Character.toUpperCase(c1);
               c2 = Character.toUpperCase(c2);
            }
            if(c1 != c2)
               return false;
         }
         return true;
      }
   
   /**
    * Returns the default style table. This can be passed to the
    * <code>setStyles()</code> method of <code>SyntaxDocument</code>
    * to use the default syntax styles.
    */
       public static SyntaxStyle[] getDefaultSyntaxStyles()
      {
         SyntaxStyle[] styles = new SyntaxStyle[Token.ID_COUNT];
      
      // SyntaxStyle constructor params: color, italic?, bold?
      // All need to be assigned even if not used by language (no gaps in array)
         styles[Token.NULL]     = new SyntaxStyle(Color.black,false,false);
         styles[Token.COMMENT1] = new SyntaxStyle(new Color(0x00CC33),true,false);//(Color.black,true,false);
         styles[Token.COMMENT2] = new SyntaxStyle(new Color(0x990033),true,false);
         styles[Token.KEYWORD1] = new SyntaxStyle(Color.blue,false,false);//(Color.black,false,true);
         styles[Token.KEYWORD2] = new SyntaxStyle(Color.magenta,false,false);
         styles[Token.KEYWORD3] = new SyntaxStyle(Color.red,false,false);//(new Color(0x009600),false,false);
         styles[Token.LITERAL1] = new SyntaxStyle(new Color(0x00CC33),false,false);//(new Color(0x650099),false,false);
         styles[Token.LITERAL2] = new SyntaxStyle(new Color(0x00CC33),false,false);//(new Color(0x650099),false,true);
         styles[Token.LABEL]    = new SyntaxStyle(Color.black,true,false);//(new Color(0x990033),false,true);
         styles[Token.OPERATOR] = new SyntaxStyle(Color.black,false,true);
         styles[Token.INVALID]  = new SyntaxStyle(Color.red,false,false);
      
         return styles;
      }
   
   /**
    * Returns the CURRENT style table. This can be passed to the
    * <code>setStyles()</code> method of <code>SyntaxDocument</code>
    * to use the current syntax styles.  If changes have been made
    * via MARS Settings menu, the current settings will not be the 
    * same as the default settings.
    */
       public static SyntaxStyle[] getCurrentSyntaxStyles()
      {
         SyntaxStyle[] styles = new SyntaxStyle[Token.ID_COUNT];
      
         styles[Token.NULL]     = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.NULL);
         styles[Token.COMMENT1] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.COMMENT1);
         styles[Token.COMMENT2] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.COMMENT2);
         styles[Token.KEYWORD1] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.KEYWORD1);
         styles[Token.KEYWORD2] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.KEYWORD2);
         styles[Token.KEYWORD3] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.KEYWORD3);
         styles[Token.LITERAL1] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.LITERAL1);
         styles[Token.LITERAL2] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.LITERAL2);
         styles[Token.LABEL]    = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.LABEL);
         styles[Token.OPERATOR] = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.OPERATOR);
         styles[Token.INVALID]  = Globals.getSettings().getEditorSyntaxStyleByPosition(Token.INVALID);
      
         return styles;
      }
   
   /**
    * Paints the specified line onto the graphics context. Note that this
    * method munges the offset and count values of the segment.
    * @param line The line segment
    * @param tokens The token list for the line
    * @param styles The syntax style list
    * @param expander The tab expander used to determine tab stops. May
    * be null
    * @param gfx The graphics context
    * @param x The x co-ordinate
    * @param y The y co-ordinate
    * @return The x co-ordinate, plus the width of the painted string
    */ public static boolean popupShowing = false;
      public static Popup popup;
       public static int paintSyntaxLine(Segment line, Token tokens,
       SyntaxStyle[] styles, TabExpander expander, Graphics gfx,
       int x, int y)
      {
         Font defaultFont = gfx.getFont();
         Color defaultColor = gfx.getColor();
      
         int offset = 0;
         for(;;)
         {
            byte id = tokens.id;
            if(id == Token.END)
               break;
         
            int length = tokens.length;
            if(id == Token.NULL)
            {
               if(!defaultColor.equals(gfx.getColor()))
                  gfx.setColor(defaultColor);
               if(!defaultFont.equals(gfx.getFont()))
                  gfx.setFont(defaultFont);
            }
            else
               styles[id].setGraphicsFlags(gfx,defaultFont);
            line.count = length; 
         
            if (id == Token.KEYWORD1){ 
               //System.out.println("Instruction: "+line);
               if (!popupShowing) {// System.out.println("creating popup");
//                   JComponent paintArea = (JComponent) expander;
//                   JToolTip tip = paintArea.createToolTip();
//                   tip.setTipText("Instruction: "+line);
//                   Point screenLocation = paintArea.getLocationOnScreen();
//                   PopupFactory popupFactory = PopupFactory.getSharedInstance();
//                   popup = popupFactory.getPopup(paintArea, tip, screenLocation.x + x, screenLocation.y + y); 
//                   popupShowing = true;
//                   popup.show();
//                   int delay = 200; //milliseconds 
//                   ActionListener taskPerformer = 
//                       new ActionListener() { 
//                          public void actionPerformed(ActionEvent evt) { 
//                            //popupShowing = false;
//                            if (popup!= null) {
//                               popup.hide();
//                            }
//                         } 
//                      }; 
//                   Timer popupTimer = new Timer(delay, taskPerformer);
//                   popupTimer.setRepeats(false);
//                   popupTimer.start();
               
               }	
            
              // ToolTipManager.sharedInstance().mouseMoved(
            //	   new MouseEvent((Component)expander, MouseEvent.MOUSE_MOVED, new java.util.Date().getTime(), 0, x, y, 0, false));
              //    new InstructionMouseEvent((Component)expander, x, y, line));
            }
         			
            x = Utilities.drawTabbedText(line,x,y,gfx,expander,0);
            line.offset += length;
            offset += length;
         
            tokens = tokens.next;
         }
      
         return x;
      }
   
   // private members
       private SyntaxUtilities() {}
   }
	
    class InstructionMouseEvent extends MouseEvent {
      private Segment line;
       public InstructionMouseEvent(Component component, int x, int y, Segment line) {
         super(component, MouseEvent.MOUSE_MOVED, new java.util.Date().getTime(), 0, x, y, 0, false);
         System.out.println("Create InstructionMouseEvent "+x+" "+y+" "+line);
         this.line = line;
      }
       public Segment getLine() {
         return this.line;
      }
   }
